package org.eclipse.egf.emf.pattern.model.call.Class;

import org.eclipse.egf.emf.pattern.base.*;
import org.eclipse.emf.codegen.ecore.genmodel.*;
import org.eclipse.emf.codegen.ecore.genmodel.impl.*;
import org.eclipse.emf.codegen.ecore.genmodel.generator.*;
import org.eclipse.emf.codegen.util.*;
import org.eclipse.emf.ecore.util.*;
import org.eclipse.emf.common.util.*;
import org.eclipse.egf.common.helper.*;
import java.util.*;
import org.eclipse.emf.ecore.*;
import org.eclipse.egf.model.pattern.*;
import org.eclipse.egf.pattern.execution.*;
import org.eclipse.egf.pattern.query.*;

public class ClasseUnsetoverride {
	protected static String nl;

	public static synchronized ClasseUnsetoverride create(String lineSeparator) {
		nl = lineSeparator;
		ClasseUnsetoverride result = new ClasseUnsetoverride();
		nl = null;
		return result;
	}

	public final String NL = nl == null ? (System.getProperties().getProperty("line.separator")) : nl;
	protected final String TEXT_1 = NL + "\t/**" + NL + "\t * <!-- begin-user-doc -->" + NL + "\t * <!-- end-user-doc -->" + NL + "\t * @generated" + NL + "\t */";
	protected final String TEXT_2 = NL + "\t@Override";
	protected final String TEXT_3 = NL + "\tpublic void eUnset(int featureID)" + NL + "\t{" + NL + "\t\tswitch (featureID";
	protected final String TEXT_4 = ")" + NL + "\t\t{";
	protected final String TEXT_5 = NL + "\t\t\tcase ";
	protected final String TEXT_6 = ":";
	protected final String TEXT_7 = NL + "\t\t\t\t((";
	protected final String TEXT_8 = ".Internal.Wrapper)";
	protected final String TEXT_9 = "()).featureMap().clear();";
	protected final String TEXT_10 = NL + "\t\t\t\t";
	protected final String TEXT_11 = "().clear();";
	protected final String TEXT_12 = NL + "\t\t\t\tunset";
	protected final String TEXT_13 = "();";
	protected final String TEXT_14 = NL + "\t\t\t\tset";
	protected final String TEXT_15 = "((";
	protected final String TEXT_16 = ")null);";
	protected final String TEXT_17 = NL + "\t\t\t\tset";
	protected final String TEXT_18 = "(";
	protected final String TEXT_19 = ");";
	protected final String TEXT_20 = NL + "\t\t\t\treturn;";
	protected final String TEXT_21 = NL + "\t\t}";
	protected final String TEXT_22 = NL + "\t\tsuper.eUnset(featureID);";
	protected final String TEXT_23 = NL + "\t\teDynamicUnset(featureID);";
	protected final String TEXT_24 = NL + "\t}" + NL + NL;
	protected final String TEXT_25 = NL;
	protected final String TEXT_26 = NL;

	public ClasseUnsetoverride() {
		//Here is the constructor
		StringBuffer stringBuffer = new StringBuffer();

		// add initialisation of the pattern variables (declaration has been already done).

	}

	public String generate(Object argument) throws Exception {
		final StringBuffer stringBuffer = new StringBuffer();

		InternalPatternContext ctx = (InternalPatternContext) argument;
		Map<String, String> queryCtx = null;
		IQuery.ParameterDescription paramDesc = null;
		Node.Container currentNode = ctx.getNode();

		List<Object> genClassList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> genPackageList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> genModelList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> isJDK50List = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> isInterfaceList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> isImplementationList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> publicStaticFinalFlagList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> singleWildcardList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> negativeOffsetCorrectionList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)
		List<Object> positiveOffsetCorrectionList = null;
		//this pattern can only be called by another (i.e. it's not an entry point in execution)

		for (Object genClassParameter : genClassList) {
			for (Object genPackageParameter : genPackageList) {
				for (Object genModelParameter : genModelList) {
					for (Object isJDK50Parameter : isJDK50List) {
						for (Object isInterfaceParameter : isInterfaceList) {
							for (Object isImplementationParameter : isImplementationList) {
								for (Object publicStaticFinalFlagParameter : publicStaticFinalFlagList) {
									for (Object singleWildcardParameter : singleWildcardList) {
										for (Object negativeOffsetCorrectionParameter : negativeOffsetCorrectionList) {
											for (Object positiveOffsetCorrectionParameter : positiveOffsetCorrectionList) {

												this.genClass = (org.eclipse.emf.codegen.ecore.genmodel.GenClass) genClassParameter;
												this.genPackage = (org.eclipse.emf.codegen.ecore.genmodel.GenPackage) genPackageParameter;
												this.genModel = (org.eclipse.emf.codegen.ecore.genmodel.GenModel) genModelParameter;
												this.isJDK50 = (java.lang.Boolean) isJDK50Parameter;
												this.isInterface = (java.lang.Boolean) isInterfaceParameter;
												this.isImplementation = (java.lang.Boolean) isImplementationParameter;
												this.publicStaticFinalFlag = (java.lang.String) publicStaticFinalFlagParameter;
												this.singleWildcard = (java.lang.String) singleWildcardParameter;
												this.negativeOffsetCorrection = (java.lang.String) negativeOffsetCorrectionParameter;
												this.positiveOffsetCorrection = (java.lang.String) positiveOffsetCorrectionParameter;

												if (preCondition()) {
													ctx.setNode(new Node.Container(currentNode, getClass()));
													orchestration(ctx);
												}

											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
		ctx.setNode(currentNode);
		if (ctx.useReporter()) {
			ctx.getReporter().executionFinished(Node.flatten(ctx.getNode()), ctx);
		}

		stringBuffer.append(TEXT_25);
		stringBuffer.append(TEXT_26);
		return stringBuffer.toString();
	}

	public String orchestration(PatternContext ctx) throws Exception {
		InternalPatternContext ictx = (InternalPatternContext) ctx;

		method_doGenerate(new StringBuffer(), ictx);

		String loop = Node.flattenWithoutCallback(ictx.getNode());
		if (ictx.useReporter()) {
			Map<String, Object> parameterValues = new HashMap<String, Object>();
			parameterValues.put("genClass", this.genClass);
			parameterValues.put("genPackage", this.genPackage);
			parameterValues.put("genModel", this.genModel);
			parameterValues.put("isJDK50", this.isJDK50);
			parameterValues.put("isInterface", this.isInterface);
			parameterValues.put("isImplementation", this.isImplementation);
			parameterValues.put("publicStaticFinalFlag", this.publicStaticFinalFlag);
			parameterValues.put("singleWildcard", this.singleWildcard);
			parameterValues.put("negativeOffsetCorrection", this.negativeOffsetCorrection);
			parameterValues.put("positiveOffsetCorrection", this.positiveOffsetCorrection);
			String outputWithCallBack = Node.flatten(ictx.getNode());
			ictx.getReporter().loopFinished(loop, outputWithCallBack, ictx, parameterValues);
			;
		}
		return loop;
	}

	protected org.eclipse.emf.codegen.ecore.genmodel.GenClass genClass = null;

	public void set_genClass(org.eclipse.emf.codegen.ecore.genmodel.GenClass object) {
		this.genClass = object;
	}

	protected org.eclipse.emf.codegen.ecore.genmodel.GenPackage genPackage = null;

	public void set_genPackage(org.eclipse.emf.codegen.ecore.genmodel.GenPackage object) {
		this.genPackage = object;
	}

	protected org.eclipse.emf.codegen.ecore.genmodel.GenModel genModel = null;

	public void set_genModel(org.eclipse.emf.codegen.ecore.genmodel.GenModel object) {
		this.genModel = object;
	}

	protected java.lang.Boolean isJDK50 = null;

	public void set_isJDK50(java.lang.Boolean object) {
		this.isJDK50 = object;
	}

	protected java.lang.Boolean isInterface = null;

	public void set_isInterface(java.lang.Boolean object) {
		this.isInterface = object;
	}

	protected java.lang.Boolean isImplementation = null;

	public void set_isImplementation(java.lang.Boolean object) {
		this.isImplementation = object;
	}

	protected java.lang.String publicStaticFinalFlag = null;

	public void set_publicStaticFinalFlag(java.lang.String object) {
		this.publicStaticFinalFlag = object;
	}

	protected java.lang.String singleWildcard = null;

	public void set_singleWildcard(java.lang.String object) {
		this.singleWildcard = object;
	}

	protected java.lang.String negativeOffsetCorrection = null;

	public void set_negativeOffsetCorrection(java.lang.String object) {
		this.negativeOffsetCorrection = object;
	}

	protected java.lang.String positiveOffsetCorrection = null;

	public void set_positiveOffsetCorrection(java.lang.String object) {
		this.positiveOffsetCorrection = object;
	}

	public Map<String, Object> getParameters() {
		final Map<String, Object> parameters = new HashMap<String, Object>();
		parameters.put("genClass", this.genClass);
		parameters.put("genPackage", this.genPackage);
		parameters.put("genModel", this.genModel);
		parameters.put("isJDK50", this.isJDK50);
		parameters.put("isInterface", this.isInterface);
		parameters.put("isImplementation", this.isImplementation);
		parameters.put("publicStaticFinalFlag", this.publicStaticFinalFlag);
		parameters.put("singleWildcard", this.singleWildcard);
		parameters.put("negativeOffsetCorrection", this.negativeOffsetCorrection);
		parameters.put("positiveOffsetCorrection", this.positiveOffsetCorrection);
		return parameters;
	}

	protected void method_doGenerate(final StringBuffer stringBuffer, final PatternContext ctx) throws Exception {

		stringBuffer.append(TEXT_1);
		if (genModel.useClassOverrideAnnotation()) {
			stringBuffer.append(TEXT_2);
		}
		stringBuffer.append(TEXT_3);
		stringBuffer.append(negativeOffsetCorrection);
		stringBuffer.append(TEXT_4);
		for (GenFeature genFeature : genClass.getEUnsetGenFeatures()) {
			stringBuffer.append(TEXT_5);
			stringBuffer.append(genClass.getQualifiedFeatureID(genFeature));
			stringBuffer.append(TEXT_6);
			if (genFeature.isListType() && !genFeature.isUnsettable()) {
				if (genFeature.isWrappedFeatureMapType()) {
					stringBuffer.append(TEXT_7);
					stringBuffer.append(genModel.getImportedName("org.eclipse.emf.ecore.util.FeatureMap"));
					stringBuffer.append(TEXT_8);
					stringBuffer.append(genFeature.getGetAccessor());
					stringBuffer.append(TEXT_9);
				} else {
					stringBuffer.append(TEXT_10);
					stringBuffer.append(genFeature.getGetAccessor());
					stringBuffer.append(TEXT_11);
				}
			} else if (genFeature.isUnsettable()) {
				stringBuffer.append(TEXT_12);
				stringBuffer.append(genFeature.getAccessorName());
				stringBuffer.append(TEXT_13);
			} else if (!genFeature.hasEDefault()) {
				stringBuffer.append(TEXT_14);
				stringBuffer.append(genFeature.getAccessorName());
				stringBuffer.append(TEXT_15);
				stringBuffer.append(genFeature.getImportedType(genClass));
				stringBuffer.append(TEXT_16);
			} else {
				stringBuffer.append(TEXT_17);
				stringBuffer.append(genFeature.getAccessorName());
				stringBuffer.append(TEXT_18);
				stringBuffer.append(genFeature.getEDefault());
				stringBuffer.append(TEXT_19);
			}
			stringBuffer.append(TEXT_20);
		}
		stringBuffer.append(TEXT_21);
		if (genModel.isMinimalReflectiveMethods()) {
			stringBuffer.append(TEXT_22);
		} else {
			stringBuffer.append(TEXT_23);
		}
		stringBuffer.append(TEXT_24);
		InternalPatternContext ictx = (InternalPatternContext) ctx;
		new Node.Leaf(ictx.getNode(), getClass(), stringBuffer.toString());
	}

	public boolean preCondition() throws Exception {
		return true;
	}
}